A building Scientist in the palm of your hand

Swarm Sensors

Small Hardware. Doing Big Things.

PassiveLogic Swarm Sensors allow you to gather deep occupant and building insights, all at less than the cost of a thermostat.

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In addition to air temperature, radiant temperature, humidity, and air quality, both the Swarm and Swarm Nano sensors work with Hive Nodes to track and respond to occupant locations via Bluetooth mesh trilateralization.

Track It

All sensor data reports automatically back to your Hive in real time. Data is aggregated from every zone, occupant, and sensor measurement to create a comfort-based control path for your building. Swarm Sensors act as user feedback and input points with beautiful touch LED displays. The Hive platform monitors user location and metabolic rates via activity sensors, adjusting comfort dynamics automatically based on real-time data.

Effortless Networking

All your Swarm multi-sensors effortlessly communicate with each other and the Hive node. The mesh network is automatically configured with no networking expertise required.

Human Centered

If you have been running, your metabolic rate increases and you get hotter. Evaporation cools your skin and your breathing accelerates. PassiveLogic predicts this change in physiology, then factors the radiant temperature, current humidity, and air movement to compute the perfect comfort path to control your occupied zone.

Environmental Data

  • Air Temperature
  • Radiant Temperature
  • Atmospheric Pressure
  • Sound Pressure
  • Occupancy
  • Indoor Air Quality
  • CO2 concentration
  • Light Intensity

Comfort

PassiveLogic is human comfort driven. Building managers can enable individual occupant accounts for personalized comfort, or use per-zone settings. Users can access detailed settings right on the Hive screen, from a browser, or with the mobile app.

swarm touch

Swarm Touch

Temperature

Radiant Distribution

Humidity

eCO2

VOC

Atmospheric Pressure

Light Level

Occupant Mapping

Occupancy Detection

Occupancy Velocity

-40 to 85 C

-60 to 400 C 1024px

0 to 100% RH

0 to 2000 PPM eq

0 to 500 IAQ

300 to 1100 hPa

10 to 10,000 LUX

1m Resolution (nom.)

7m (distance)

0.1 to 10 m/s

Connectivity Options

Bluetooth Mesh

2 or 3-Wire MultiDrop

200m (max mesh hop)

300m (max length)

Wire-Free Requirements

Light Requirement
(non-wired)

Battery Autonomy
(No light)

50 Lux at 8 hours


1 year

Dimensions

circular device with blue engineering drawings with dimensions
swarm nano

Swarm Nano

Temperature

Radiant Distribution

Humidity

eCO2

VOC

Atmospheric Pressure

Light Level

Occupant Mapping

Occupancy Detection


-40 to 85 C

-60 to 400 C 1024px

0 to 100% RH

0 to 2000 PPM eq

0 to 500 IAQ

300 to 1100 hPa

10 to 10,000 LUX

1m Resolution (nom.)

7m (distance)


Connectivity Options

Bluetooth Mesh

2-Wire MultiDrop

3-Wire MultiDrop

30m (max mesh hop)

300m (max length)

25 sensors/daisy-chain
(max)

Wire-Free Requirements

Light Requirement
(non-wired)

50 Lux at 8 hours

Dimensions

circular device with blue engineering drawings with dimensions
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